Structural Modification for High Rise Building for Energy Efficiency

Authors

  • AAvez P.G. Scholar, Department of Civil Engineering SIRTE, Bhopal, Madhya Pradesh, India Author
  • Bikram Prasad Professor, Department of Civil Engineering SIRTE, Bhopal, Madhya Pradesh, India Author

Keywords:

ETABS, Structural Analysis, Energy Efficiency, Low Carbon, Building

Abstract

Minimizing energy consumption in buildings has become an important goal in architecture and urban planning in recent years. Rules were created for each climatic zone targeting expanding sun based introduction for structures in chilly atmospheres and at diminishing sunlight based presentation for structures in sweltering atmospheres. This methodology generally anticipates the season with the harshest climate; regularly overlooking that temperatures in urban areas at scope 25° can dip under warm solace restricts in winter and that temperatures in urban areas at scope 48° frequently ascend above warm solace confines in summer. This examination contends that an all encompassing way to deal with vitality effective structure structures is required. It exhibits a nonexclusive vitality effective structure determined by glass dividers at outside and composite divider at the inside. In this investigation we are additionally using low carbon impression material supplanting a specific level of concrete in concrete for R.C.C. individuals. In this research work for modelling and dynamic analysis ETABS tool is considered.              

Downloads

Download data is not yet available.

References

http://en.wikipedia.org/wiki/Sustainability Mehta, P.K., Global concrete industry sustainability, The Indian Concrete Journal, February 2009, Vol. 83, No.2, pp. 45-48.

Swamy, R.N., Sustainable concrete for the 21st century-concept of strength through durability, The Indian Concrete Journal, December 2007, Vol. 81, No.12, pp.7-15.

Kalgal, M.R., Sustainable development with concrete, ICI Journal, Vol. 9 No.4 October-December 2008, pp.11-16.

Desai, S., Safe, high-tech and sustainable concrete construction, Construction Materials, May 2008, 6, Issue CM2, pp. 85-90.

Subramanian, N., Sustainability - Challenges and solutions, The Indian Concrete Journal, December 2007, Vol. 81, No.12, pp.39-50.

Tande, S.N. and Krishnaswamy, K.T., Greening of Concrete Industry for environmentally compatible and sustainable structures, The Indian Concrete Journal, May 2009, Vol. 83, No.5 pp.39-44.

Commision of European Communities (1991), Solar Architecture in Europa, Brussels, Belgium Çelebi,

G., Gültekin, A. B. , Ulukavak Harputlugil, G., Bedir, M., Tereci, A., (2008), Yap? - Çevre ?li?kileri, TMMOB Mimarlar Odas?, Sürekli Mesleki Geli?im Merkezi Yay?nlar? - 10, ?stanbul Ionescu,

C., Baracu, T., Vlad, G. E., Necula, H., & Badea, A. (2015). The historical evolution of the energy efficient buildings. Renewable and Sustainable Energy Reviews, 49, 243-253.

O’Connor, J.M., (2015), Architecture&Passive Design, Design Media Publishing, Hong

Kong Schuetze, T. (2015), Zero Emission Buildings in Korea—History, Status Quo, and Future Prospects, Sustainability, 7, 2745-2767; doi:10.3390/su7032745

Sev, A. (2009), Sürdurulebilir Mimarl?k, Yem Yay?n, ?stanbul http://www.arch2o.com/e-green-home-unsangdong-architects-kolon-institute-of-technology/Last accessed January.

Downloads

Published

17-01-2020

Issue

Section

Research Articles

How to Cite

AAvez, & Prasad, B. (2020). Structural Modification for High Rise Building for Energy Efficiency . International Journal of Scientific Research in Civil Engineering, 4(1), 20-24. https://ijsrce.com/index.php/home/article/view/IJSRCE20413

Similar Articles

1-10 of 387

You may also start an advanced similarity search for this article.